The Future Of Energy: Exploring Marseille’s Transition To Green Energy Sources – On Wednesday 18 November 2020, from 17:30-19:30 GMT, the Rethinking Modern Europe Seminar at the Institute of Historical Research, in London, UK, will hold an online research seminar on the theme ‘Port and City in Modern Marseille,’ with Dr . Venus Bivar (York, UK) and Gemma Jennings (PhD candidate, University of Birmingham, UK).

Marseille is a good vantage point from which to rethink modern Europe. A key node in French, European, trans-Mediterranean and global networks of trade and migration, its urban history also provides a rich framework within which historians have interpreted the socio-economic and politico-cultural histories of citizenship, gender, space and housing, and postcoloniality. This seminar brings together two researchers working on Marseille in a network perspective to consider the political ecology of migration and the politics of hydrocarbon energy inside and outside the city.

The Future Of Energy: Exploring Marseille’s Transition To Green Energy Sources

The Future Of Energy: Exploring Marseille's Transition To Green Energy Sources

This project excavates the intricate economic and environmental histories of urban development, migrant labor and ethno-racial exclusion in contemporary Marseille. With a demographic profile defined by migration – from Italians, Corsicans and Armenians to Sephardic Jews, North Africans and Comorians – Marseille has challenged French ideas of ethnic-racial difference and national belonging. Drawing on existing literature that examines forms of inequality produced by ethno-racial differences, I am interested in exploring how inequality was not only a product of a French political ideology that privileges assimilation, but was also the result of differential access to urban infrastructure. as well as different exposure to industrial pollution. Although rooted in the experience of modern France, this research should provide parallels for scholars interested in how similar dynamics played out in various port cities across the globe, from Cartagena and Baltimore to Liverpool and Guangzhou.

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Through ports, pipelines and refineries, the physical flows of oil have been built into cities and landscapes across the globe. The significance of these physical assemblages has been somewhat obscured by the concentration on oil as an economic actor, but recently a growing field focused on the relationship between oil and space has begun to demonstrate the critical role that hydrocarbon infrastructure networks play in shaping urban life and design, socio-spatial inequalities and even nation-building projects.

Despite the growing academic interest in these issues, there have been relatively few studies exploring the history of oil in Marseille, despite the region’s status as a critical oil port and refining hub. This is particularly striking in the context of the post-war years when, until the oil crisis of 1973, the hydrocarbon infrastructure was dramatically expanded in an attempt to restore Marseille’s place in the national economy.

This article will therefore focus on the development and evolution of the petroleum landscape in the Marseille region between 1958 and 1975. It focuses on how these infrastructures interacted with and affected urban geographies and local residents, while drawing attention to their network elements. , which examines how these shaped the conceptualization of Marseille in relation to regional and national space

This event is free and open to the public. Advance registration is required and space is limited. Registrants will receive a confirmation email with a link to join this virtual session via Zoom approximately three hours prior to the start time. You will be recorded on Zoom from a waiting room for security reasons.

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‘Rethinking Modern Europe’ is an IHR seminar showcasing new research in European history, particularly work that challenges existing paradigms, crosses boundaries and promotes new topics of inquiry. Our formats include formal papers, book launches, roundtable discussions and sessions for Ph.D. researchers. Inquiries about this event can be sent to Dr. Simon Jackson (

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The Future Of Energy: Exploring Marseille's Transition To Green Energy Sources

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The technical storage or access is necessary to create user profiles to send advertisements or to track the user on a website or across multiple websites for similar marketing purposes. In the 21st century, the search for sustainable and environmentally friendly energy sources has become an urgent global concern. As the world grapples with the challenges of climate change and the need to reduce CO2 emissions, the search for greener solutions to produce energy has taken center stage. In this article, we’ll delve into five promising initiatives that hold the potential to revolutionize the way we generate clean energy: osmotic energy, solar energy, bioluminescence, nuclear fusion, and green hydrogen.

Questions of the 21st century. As we navigate the challenges of the century, the search for greener solutions to produce energy has become paramount. Many companies are researching this area and developing initiatives to revolutionize the way we produce electricity. In this article, we have selected five promising technologies across different areas that hold great potential.

Global Maritime History

Osmotic energy, also known as salinity gradient energy, utilizes the natural phenomenon of osmosis to generate electricity. By exploiting the difference in salt concentration between salt water and fresh water, osmotic power plants can produce clean and sustainable energy. Through the use of membranes, the movement of ions across these barriers creates a pressure difference that drives turbines and generates electricity. This renewable energy source has enormous potential, especially in coastal areas where rivers meet the sea, and offers a promising solution for clean electricity generation.

French start-up Sweetch Energy has achieved a remarkable milestone by converting delta seawater into electrical energy. With preparations for a pilot plant near Marseille, this ground-breaking innovation holds enormous potential to meet the energy requirements of the city, which is home to almost a million inhabitants. The start-up’s performance was further boosted by securing €6 million in funding last September.

“Our focus is on the large-scale deployment of osmotic energy in deltas and estuaries, starting in the Rhône region of France. The potential for installation is approximately 500 megawatts, equivalent to half a nuclear power plant, which can power about 1.5 million people. The pilot plant that located near Marseille in Port Saint Louis, is expected to be operational by the end of this year or the beginning of next year and generate tens of thousands of kilowatts of power. The initial investment for this phase is three million euros. The goal is to quickly validate the technology, its functionality and its performance in the real world READ MORE

The Future Of Energy: Exploring Marseille's Transition To Green Energy Sources

Bioluminescence, the natural phenomenon of light production in living organisms, offers a unique opportunity for the generation of clean energy. Scientists are exploring ways to harness the chemical reactions that occur in bioluminescent organisms, such as fireflies and certain marine species, to produce sustainable light sources. By incorporating bioluminescent proteins into lighting technologies, we can potentially reduce energy consumption and rely less on conventional electric lighting, leading to a greener and more energy efficient future.

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In a partnership that began in 2019, the city of Rambouillet in France has teamed up with Glowee, a French startup focused on harnessing the potential of bioluminescence to develop sustainable lighting technology. This innovative company has devised a method to grow bioluminescent bacteria, known as Alivibrio Fisherii, which emit a natural bluish glow without being toxic or pathogenic.

The bioluminescent microorganisms are housed in specially designed plastic tubes that act as miniature aquariums. By providing the bacteria with sufficient nutrition and oxygen, their bioluminescent metabolic reaction is activated, producing light. Conversely, the light can be “turned off” by restricting air flow into the saltwater tanks, which causes the organisms to go into an anaerobic state and turn off the light source.

As a demonstration of its feasibility, the startup company installed curb lanterns using this technology in Rambouillet’s Place André Thome in January.

Woodlight, another French company, has embarked on another endeavor: to transfer bioluminescence from marine microorganisms to plants. Established in Illkirch in 2018, Woodlight is currently in the research phase, working towards biotechnological plants capable of emitting enough light to potentially replace traditional public lighting systems in cities.

A Mediterranean Perspective

Solar energy has emerged as one of the most abundant and accessible renewable energy sources

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